Liquid dispensing device



June 30, 1953 E. A. DALEY ETAL 2,643,792

LIQUID DISPENSING DEVICE Filed Oct. 21, 1946 5 ee -Sh e 1 il'll I: 2 Eh 222 ,n

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June 30, 1953 E. A. DALEY ETAL LIQUID DISPENSING DEVICE 5 Sheets-Sheet 3 Filed Oct. 21, 1946 Mum/raps:

June 30, 1953 I E. A. DALEY ETAL 2,643,792

LIQUID DISPENSING msvxcE Filed Oct. 21, 1946 5 51 1; 4

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June 30, 1953 E- A. DALEY ET AL LIQUID DISPENSING DEVICE Filed Oct. 21, 1946 5 Sheets-Sheet 5 Patented June 30, 1953 LIQUID DISPENSING DEVICE Edward A. Daley, St. Louis, Mo., ville, Ill.

Belleville, 111., Henry J. Mueller, and Benjamin F. Bracy, Belle- Application October 21, 1946, Serial No. 704,766

16 Claims.

This invention relates to a liquid dispensing device. In particular, it has to do with a liquid dispensing device by which predetermined amounts of liquid may be dispensed, which predetermined amounts may be measured in terms of two different sets of units.

It is an object of the invention to provide such a dispenser or related device wherein the dispensing by two different sets of units may be operated off of a single switchboard or like preset mechanism. Specifically, it is an object of the invention to provide a dispensing device that will dispense liquid in units of either volume or price, that is to say, in connection with gasoline pumps, it will dispense in units of either gallons or money, andin particular will do so off of a single switchboard.

It is a further object of the invention to provide a mechanism of this kind that will clear the switchboard when the dispenser is rendered inoperative in conventional manner.

A further object of the invention is to provide for the clearing of the limitin means for the dispenser at the same time the calculating means is cleared.

It has heretofore been conventional to provide liquid dispensing pumps with indicators that indicate the amount dispensed, both in units of volume, such as gallons, and in units of money, such as dollars and cents. It has also been con ventional to provide a clearing mechanism for the indicators, so that they may be returned to zero indications when a dispensing operation is completed or a new one is to be started. The present invention adapts these mechanisms to its objectives.

Therefore, in particular, it is an object of the invention to provide a single switchboard or other limiting means that may be graduated 'both in units of money and in units of liquid volume, together with electrical control means that will cause the device controlled by the limiting means to operate until it has dispensed the amount of liquid indicated by the switchboard in either of units, and then will stop. And a further particular object is to provide for the clearing of this switchboard mechanism and its electrical parts at the same time the indicators are cleared.

In I this description, particular reference is made to liquid dispensing mechanism, wherein this invention has especial applicability. It will be understood, however, that features of the invention are more generally useful than in this one combination.

In the drawings:

Fig. 1 is an end elevation of a pump having the mechanism of this invention thereon;

Fig. 2 is a side elevation taken from the left side of Fig. 1, showing the switchboard;

Fig. 3 is an enlarged section on the line 3-3 of Fig. 2 of the clearing mechanism actuated by the nozzle hangin lever, shown in section;

Fig. 4 is a view similar to Fig. 3 with the nozzle hanging lever released;

Fig. 5 is a horizontal section on the line 5-5 of Fig. 2, showing the top of certain parts that are also shown in Figs. 3 and 4;

Fig. 6 is a vertical lateral section, on the line ti'i of Fig. 3, showing the nozzle release rocker shaft;

Fig. 7 is a perspective view of the release latch arm;

Fig. 8 is an end view of the switchboard mechanism, taken from the end at the left of Fig. 2;

Fig. 9 is a view of the indicator mechanism and parts of the electrical counters similar to their showing in Fig. 1, but with the outside cover and the crank handle removed;

Fig. 10 is a side elevation with the cover removed, taken from the left side of Fig. 9;

Fig. 11 is a side elevation taken from the right side of Fig. 9;

Fig. 12 is a plan view partly broken away of the mechanism of Figs. 10 and 11;

Fig. 13 is an enlarged plan view of part of the mechanism. with certain clutch parts in a position different from that in Fig. 12;

Fig. 14 is a section on the line I l-l 4 across the top middle of Fig. 13;

, Fig. 15 is a section on the line 5-4 5 across the lower middlev of Fig. 13, and showing one of the clutch release arms;

Fig. 16 is a view of a portion of Fig. 10, but with certain electrical mechanism removed therefrom;

Fig. 17 is a horizontal section on the line i 'l-l'l across the left middle of Fig. 11, showing the lower clutch mechanism;

Fig. 18 is a section on the line I8-l8 extending up and down at the right side of Fig. 17;

Fig. 19 is a view of the wiring diagram of the electrical connections; and

Fig. 20 is an enlarged view of a portion of the switchboard mechanism.

This mechanism is shown as built from a base 25, permanently secured to and enclosed by a conventional. pump housing or casing, generally indicated at 24, and which may. contain suitable pumping mechanism and driving mechanism, in-

cluding an electric motor. TWO side frames and 21 are bolted to the base 25 and are upstanding therefrom. They are rigidly connected to gether and held in properly spaced relationship by a plurality of cross members 28, 29 and 30, the last being a flat bar type reenforcement shelf across the top of the frame. A shown, these frame members include vertical columns at their middle parts, and upper and lower outwardly extending'arms.

Suitable drive from the motor is brought up between the frames to drive two main shafts 32 and 33 that extend across between the two middle columns of the frame members 28 and 21. Each of the two power shafts operates a set of indicating drums. l

The lower shaft 32 is conventionally geared to the driving means by a slip friction clutch (not shown). The indicating drums, operated from the lower shaft 32, are mounted on two opposite outer drum shafts, one indicated at 35 and the other (not shown) being at the opposite ends of the apparatus. These shafts are of identieal construction. The shaft 35 has gallon counting drums 31, 33 and 39 thereon. The drum 31 indi cates tenths of a gallon, the drum 38 indicates gallons, and the drum 3?! indicates tens of gallons. The drum 31 is rotatable on the shaft 35, and is geared to the shaft 32. A gear train 42, just inside tht sidefrarne 21, drives the drum 31 on the shaft 35.

When the shaft 32 rotates, it causes rotation of the drum 3?- on the shaft 35. Above and inwardly of the drums, there is a tally shaft 42 journaled in the frames it and 2-1. This tally shaft idly carries a pick-up gear 43 In conventionalmanner, the pick-up gear is displaced one tooth by a single lug on the drum 31, each time the drum makes a revolution. The tally gear 43 is meshed with a drum gear 44 fixed to the gallons drum 3'8. one-tenth of a revolution for each revolution of the tenths drum 31. In like manner, the gallons drum sfi operates another tally gear (not shown) idly. mounted on the shaft 42, and enmeshed with a gear 46 on the tens drum 39.

In like manner, the upper drive shaft 33, through suitable gearing, rotates two sets of money. druxnsf On'oppos'ite upper arms of i the frames, there are two shafts. As the opposite ends of the machine are alike, only one such shaft is shown, at 45. The shaft carries drums indicating money in cents, tens of cents, and

dollars, there being units drum 41-, a tensdrum 48 and a hundreds drum 49. A gear train 511' just inside. the frame 21- connects "the shaft 33- with the drum 41 on the shaft 45, and a gear train 5| just inside the frame 26 connects the shaft 33 with thedrums (not shown) at the Opposite end.

As in the previous case, there is a tally shaft 52 between the. side frames. An idling tally gear 53 on. the. tally. shaft is moved one tooth for each revolution of the cents drum ll, and mesheswith a gearfi iffixed-to the tens drum 48;. tally gear, not shown, similarly advances the dollars, drum 49.

The operationIof the foregoing drums neednot be. further described because it isconventional. The two shafts 32 and33-operate together, and cause. simultaneous rotationof the four sets of drums to indicate the amount of liquid dispensed and thecharge therefor.

When it is, desired to zeroize the various drums, a zeroizin shaft fiamay be rotated. This shaft is journaledin thetwo side frames 26 and 21, and receives a crank handle 51. Outside the This-gallons drum is thus advanced Another frame 21, it has mounted. on it a gear 58. This gear meshes with two gears 58 and 60 that are united with gears ti and 62, respectively. The gears 59 and SI are rotatably mounted on the projection of the shaft 32 outside the frame 21. In like manner, the gears 60 and 62 rotate on the projecting end of the shaft 33.

The. gear 61 meshes, with two idler gears 65 and B6 on opposite side of it and mounted on the frame 21. The gear 65 meshes with a zeroizing gear 61 on the shaft 35. The gear 66 meshes with a correspondin gear on the other shaft.

The gear 62 meshes with two idler gears 69 and 1!} on opposite sides of it and mounted on the frame 21;] The gear 69 meshes with a zeroizing gear 11 on the shaft 45. The gear 10 likewise meshcs with a similar gear on the other shaft 45 at the opposite side (not shown). The gears 61 and 1! are fixed to the shafts 35 and 45. Thei qqunterparts are likewise fitted. to the similar shafts.

When the shaft 56 i rotated by the crank 5.1, the zeroizing gears 51 and 11 will be rotated. These are connected with the drums, in such wise as to cause the drums to be returned to neutral position. This. rotation does not affect the totalmg se rina.

The end oi the shaft 56 on the outside of, the frame 2 5 carries a cam disc 15 (Fig. 10) having, a notch "Hi in the periphery thereof. A bell crank 11 is rockable on the projecting end of the power shaft 33. It has a lug 13 that engages within the notch 18' when the cam 15 is in its starting position. The other end of'the bellcranlr armis engaged by a tension spring 19 that is fastened to the framework of the machine and causes the bell crank to be urged in the direction to keep the lug it against the periphery of; the cam 15. It will be seen that the surface of the lug 18 is curved that, when the disc 15" i turned upon. rotation of the shaft 59. the iug will be forced out of the notch 1i} onto the periphery of, the cam disc. This action impartsa counterclockwise rocking movement to the bell crank 11 as it appears in Fig. 10.

Each. of the sets of; drums has a shield onit which is moved to concealing position when, the

zeroizing mechanism is operated. There is a shield BZ that-is-U-shaped-so as to have arms pivotally supported upon the shaft 35outside of the two frame members 28*and 21. This shield. has a plurality of fingers 83"thatprojectover the surfaces of the several drums, and which, when the shield 82 :isrockedcounterclockwise as shown in Fig. 10; will extend over theopenings in the easing to conceal the numbers.

As shownalso in Fig; 10, there is ashield 84 mounted on the-shaft 45, and it has fingers 85 that conceal the drums onthisshaft. There are similar shields for theshafts 35 and 45 on the opposite. side of f the I mechanism;

A link 81i is=pivotally connected-t0 one arm of the bellcrank, 11? and pivotallyconnected-to theover the openings in the casing, thereby conceal- At the sametime, the link 88 1 ing the numbers. will be drawn upwardly and will pull the shield 82 upwardly, rocking it counterclockwise aboutv the shaft 35, so as to bring its fingers 83 up to conceal th numbers.

The foregoing mechanism is conventional in the art. However, it is employed to perform additional functions in connection with the present invention.

shown in Figs. and 16, there is a bracket plate 92 attached to one side of the frame 26. This bracket has a cross arm 93 (Fig. 17), that may be integrally formed therewith, which ex tends across to the frame 21 and out through the same to provide a U-shaped bracket 94 that is secured to the frame 26 at its free end by the attachment means for the spacing rod 29.

A shaft 95 is supported in bearings in the plate and in this bracket 94. The bracket 94 and the shaft all are stabilized by a brace 96 (Figs. l1, 12) extending upwardly to the idler shaft for the gear 8Q.

The shaft receives a gear 97 that is slidable along the shaft 95 but is keyed thereto at 98. This gear ti is selectively engageable with the tally gear 33 mounted on the cross shaft 42. Thus the gear at may rotate with and be driven by the tally gear 53, to advance one tooth for every tenth gallon.

The shaft 95 has a small gear I82 thereon that is adapted to m sh with a gear I83. The gear its, in turn, is non-rotatably mounted upon a shaft the that extends between the bracket 92 and another bracket 95 that is formed as an upstanding projection on the cross member 93 that is a part of the bracket 92.

The shaft that carries a wiper arm unit IU'I outside of the bracket 92. This wiper arm is concentrically mounted with an insulated disc let! that is supported by a bracket I I8 attached to the The disc Hi8 has a plurality of periph- "t electrically insulated contact buttons 1 t project from its outer face. As shown l0, each of these contacts has an individual w .e connection leading to it.

The contact arm it? may be made initially of insulative material. However, as will appear more clearly in connection with another wiper arm later to be described, the arm unit It? conins a spring lie that is of conductive material, nich spring leads to the end of the arm and is ted thereto through a wiper screw H5.

a conductor spring II? that is connected to the br i it and carries its own lead for electrical connv tions. Th wiper contact is such as to 1 the contacts H2, and to make with an contact before it breaks with a preceding one.

In order to permit free rotation of the wiper arm 5 or in a forward direction, but to insure that it will always stop at its zero position when zeroi stop means is provided in the form of a projecting from one face of the gear Hi3 a spring l2I engageable therewith (Fig 16). The gear i 3 is on the same shaft as the wiper arm.

to the bracket plate 92. When the gear I03 rotates forward, the leaf spring may yield over the When the gear is reversed, the end of the leaf spring normally bearing yieldably against the lace of the gear I03 will be engaged by the lug, and further backward rotation of the gem 93 is stopped. In this position of the gear, the wt er arm will be in starting or zero position.

Returnin to Fig. l? and Fig. 11, it will be seen that the shaft which drives the wiper arm, has a sleeve E22 with an outer flange I23, and an spring f it": is in contact at its center with The spring I2I is attached at one inner slot I2;v that-engages over the key 98 to hold the sleeve non-rotatably but slidably onto the shaft. The sleeve I22 receives a gear I25 urged against the flange I23 by a spring I26 that is held at its other end by a removable washer arrangement I21- The gear may have a washer I23 on its inner face to receive the spring. The foregoing assembly is urged inward by a spring I229 onthe shaft and acting between the flange [23 and a washer arrangement I39, as shown in Figs. 12 and 17. By the foregoing arrangement, the gear 825, which may be meshed with the zeroizing gear 'EI and driven thereby, is frictionally connected with the shaft 95. Also the gear unit is normally urged inward by the spring I29, but may be moved outwardly along the shaft, the latter not withdrawing the slot I24 from. the key 99 in normal operation.

The gear wheel 91 is flanked by a shifter fork I35 which has a head that is slotted at I36, and which rides over the cross bar 93. Screws I37 pass through the slots into the cross bar 93 to secure the shifter fork onto the cross bar and to limit its movement to the sliding movement indicated.

The shifter fork has a pin I49 projecting outwardly from it. This pin is received in a slotted end of a crank arm I4I (Figs. 17, 18) that is pivoted at 592 to the upstanding flange Illa formed as part of the bracket 93.

The other end of the crank arm I4I extends out through a suitable opening in the plate 92 and has an end to which a coil spring I46 is attached. As shown in Fig. 16, the spring I46 is secured at its other end to an arm I41 projecting outwardly from the shield 82. This spring is unloaded or substantially unloaded when the arm it? is in its released position. The coil spring Hi5, extending from the bracket 92 to the pin I40, normally urges the clutch fork I35 toward the side frame is to maintain the gear 91 in mesh with the gear d3. When the crank 51 is operated, so that the shield 32 rocks counterclockwiseas shown in Fig. ID, the spring I46 will be tensioned, and it will then pull the arm I4I downward, which causes its other end to rock the pin I40 toward the other side frame 26. This unmeshes the gear 97 from the tally gear 43. The engagement of the gear 9'5 with the sleeve I22 causes the gear I25 to be shifted outwardly into mesh with the return gear H, as shown in Fig. 11. Then, when the return gear H is rotated by the Zeroizing mechanism, the gear I25 will be correspondingly rotated and the shaft 95 will be rotated. The gear is such that this will cause a return of the shaft 95 the same amount it was advanced by the gears :13 and 91. The return of the shaft as through the gear I93 will cause the wiper arm W? to return to its starting position in which it is in contact with a particularly chosen contact point H2.

A bracket member (Fig. 13), generally designated at its, has side frame IGI and IE2 connected by a connecting member I63. This connecting member has projections I64 and IE5 that are securely attached to the cross bar 30 at the top of the two frames. I The bracket Ito supports a shaft I 6! that extends across the top of the machine. This shaft has a gear that is normally in mesh with the tally gear 59. Th gear I68 is keyed to the shaft H97, as shown zit-H39, so that it may slide along the shaft but will always rotate the shaft.

The shaft It! carries a small. gear I10 that is in mesh with a gear IlI mounted on the shaft 7 I12. The shaft I12 is carried between the side member I6I of the bracket I60 and a spaced plate I13 that is fixed by rigid spacers I14 to the side member I6I.

The shaft I12, at its outer end (Figs. and 12) carries a wiper arm I16 which revolves around an insulated disc I11 that is supported non-rotatably on the shaft and upon a bracket I18 that is attached to the plate I60. The disc I11 has individually connected contact points I19 arran ed around its periphery. The contact at the outer end of the wiper arm I16 is selectively engageable with any one of these contact points I19.

The wiper arm I16 is of insulative material.

'At its outer contact end, it is attached to a conducting spring I80 that is radially disposed with respect to the wiper arm. Its inner end is sprung outwardly therefrom into contact with a circuit maker point IBI that is supported upon a bracket I82 mounted upon the bracket I16. This contact point IBI is thereby caused to receive its proper electrical lead, it being shown as having a nut I83 for this purpose. This wiper arrangement is the same as the one previously described as far as its mechanics are concerned.

The gear I68 is straddled by a shifter fork I90 that is adjustably attached by a setscrew along a cross shaft IQI, which bears in the plate I13 and in the plate I62 on the bracket I60 (see Fig. The shaft lEII is encircled by a compression spring lift that engages against the bracket I13 and a washer I93 confined by a nut I94. By t means, the shaft ISI is urged toward the side frame 2%, which is upwardly in Fig. 13. This spring thereby urges the fork I90 to bring the gear H38 into engagement with the gear 53.

The shaft I6I likewise carries another shifter tori; 581 that is held adjustably by a setscrew to the shaft I9I. This shifter fork straddles a gear its on a cross shaft 200 that projects outwardly from the side of the bracket I62. The gear I99 is in mesh. in Fig. 13 with a gear 20I on the shaft I61. This gear is rotatably mounted on the shaft, but is normally caused to rotate the shaft by friction, as it is urged by a spring 202 confined between a nut 263 on the shaft and a collar 2% fixed to the shaft I61.

The shaft I9I has a depending pm 201 that is engaged by the forked end of a crank arm 208 pivoted at 269 to the cross member I63 of the bracket Hit. The other end of this crank arm 208 is attached to a coil spring 2III. The coil spring 2H) is normally unloaded. However, when the shield 84 is moved down by the zeroizing mechanism, the spring 2H1 is expanded and draws the end of the crank arm 208 counterclockwise to the position shown, in which, through the pin 201, it shifts the shaft ISI axially toward the side frame 21 against the spring I92. The fork I90 in this operation disengages the gear I68 from the gear 53, and the fork I90 causes the gear I99 to mesh with the gear 2M, and with the idler gear 63, as shown in Fig. 11. By this arrangement, when the zeroizing gears are driven, the idler gear 66 will be rotated. It will thereby cause rotation of the shaft I61 in a backward direction. It will not affect the tally gear 53 because of the fact that the gear I68 is out of mesh therewith. However, the gear I10 will act through the gear I1I to return the wiper arm I16 to its starting position.

The mechanism includes a switchboard, generally indicated at 220, it being attached to the side of the casing 24. It includes a plurality of push buttons 22 I. Each of these push buttons 8 is individually operatable, and when pushed in will remain in until cleared. It may be cleared by depression of any of the other buttons, as in the familiar radio set construction. It also may be cleared by a button 222 at one end of the switchboard. This button, when depressed, operates the clearing mechanism to return all of the buttons 232i to their open positions. In addttion to that, there are two master switch buttons 223 and 224 which are adapted to select either gallons or dollars cents for the determination of the amount of liquid dispensed. The two switches 223 and 22d likewise both cleared whenever the button is depressed, but are not cleared by depression of any of the buttons 22L As such clearing meci anism is conven tional, it is not here illustrated.

The button 222 may be depressed or it may be depressed whenever the operation is completed by some other means. in the case of a gasoline pump, it may be cleared the operation of hanging the pump nozzle onto the side of the pump. end, a nozzle receiving lever 22b pivoted at 22? to the casing 24. It carries a link 2738 that may be used to operate a master switch, if desired. The lever 226 is adapted to a push pin that is normally urged upwe cly by a tension spring 23I attached between a n projeG-ng lever 23b and the top oi the casing 2 3, as shown in Fig. 3. The lower end of the pin 230 engages in a pin and slot mar r with a arm that is fixed to a cro it mounted piv otally in the casing. other end of this cross shaft has upstanding rocker arm 235 tlrreon which has a p l 52% projecting to one side of its outer end. e is likewise a setscrew that projects from lug integral with the side of the rocker arm as shown in 3.

This rocker arm is adapted for engagement in a latch lint; 225.9,, shown in detail in 1. The end of the rocker 236 in the channei of this latch link. The latch link is notched at 2M, and this notch under certain circumstances, to the pin 236. The edge of the latch link is engage-able by the adjustable setscrew 231.

The link is pivoted to a slide rod 242, which is urged outwardly, that is, to the left in i 3', by a coil spring 2233. This rod 252 has a bentover end 2M that engages a depending 2 25 associated with the clearing mechanism operated by the button When the nczae lever 7225 is down, the casein anism, assumes the position shown in When the nozzle removed, the spring draws the crank arm 23:} upwardly, as shown in Fig. 4, which rocks the crank arm 2% counterclockwise so that the button 23G in thev notch 2 1i. A coil spring 246 causes the link 249 to drop down to the position shown in Fig. 4.

When the nozzle is replaced and the l is caused to drop downwardly to its in all posimanually tion, the crank arm 233 is again rocked counterand pivoted on of the pin 235. Hence, when the nozzle lever 22s assumes its final resting position, the latching link 240 is again released, and the release button 222 is returned by its spring 243 to its released position.

The wiring of the mechanism is shown in Fig. 19 with certain of the switches indicated in Fig. 20. There are shown two power connections 25!! and 25I connected across the primary of a transformer 252. A pumping and driving motor 253 is connected across the two power lines. However, its circuit is controlled by a relay switch 255 that is operated by a coil 255. The transformer 252 has a secondary 25?. One side 25% of the secondary is connected to one side each of the two master switches 223 and 22d.

The switch 223 at its other side is connected by a line 2% with a contact 2M of one of the push button switches. The construction of these switches is shown in 20. The contacts 26! are designated as 25in, 26th, etc.

Each of the contacts 2cm through 26in is connected by a wire with one of the contacts H2 on the disc Iiiii. Thus the contact 26Ia is connected by a wire 262a with the zero contact button H211. Likewise, the contact 26H) is connected by a wire 2621) with the contact l I217, etc. To refer particularly to the contact shown in Fig. 20, the contact 26ie is connected by a line 262e with the contact IIZe.

The switch buttons 22! are mounted upon contact plates 254 that, when released, engage adjacent the contacts ZGI. Hence, when all the buttons 22I are released, all of the contacts 26m through 2m are connected. together. When any button 22! is depressed, it breaks its two adjacent contacts 26L As shown in Fig. 20, the contact 25h? is broken from the contact 26If. This breaks the over-all end-to-end circuit across the switchboard. These buttons are of the type that are normally spring urged outwardly, but, when any is depressed, it is latched in until released by depression of any other one, or depression of the clearing button 222.

The wiper arm It! is adapted to wipe across the several contacts IE2. t is connected by a wire 266 back through the relay coil 256, from which a wire 26? leads back to the other side of the secondary 251.

The foregoing comprises a closed circuit arrangement, which, as will be seen, provides for the dispensing of gallons in the present arrangement. The same switchboard is arranged for the dispensing of amounts of liquid determined in dollars and cents. of the switch 224 is connected by a line 270 to a line ZII that leads through a normally closed relay switch 272, the other contact of which is connected by a line 213 to the line 266 that leads through the solenoid switch 256.

The line 2'10 is also connected by a line 215 to the contact 26m, which is at the end of the closed contact series. There are a series of contacts Z'll'a through 211i. Whenever one of the switch buttons 22I is depressed, it breaks from one of the contacts 26! with which it was engaged, and makes with a corresponding back contact 211. Thus, if the button 22Ie is depressed, to break its switch plate 264:; from the contact 26Ie, it will close the contact plate 2642 between the contact 2M and the contact 2l'Ie. Also, the contact To this end, the other side 2Blf is connected through the released switch plates 254 with all of the other contacts 26I to Each of the contacts 211 is connected by its coil 28I is energized, the switch 272 will be opened.

'The operation of the electrical parts is as follows:

At the start, the mechanism will be cleared. The nozzle lever 226 will be down, as in Fig. 3. with the lug 236 freed from the notch 2H and the rod 242 released to outward position to.

which it is driven by the spring 243.

When the customer indicates his requirement in either gallons or money, the operator depresses the appropriate button 22I. These buttons are graduated from left to right in both gallon units and ten-cent units, although any other units may be used appropriate to the chosen dispensing operation and material dispensed. If it be assumed that the demand is for five gallons of gasoline, the button 22 Ie is depressed. Then the nozzle is withdrawn from the lever 226 and inserted into the tank. This operation releases the rod 230 to move upwardly under pull of its spring 23I, to rock the shaft 234 and the crank arm 235, so that the lug 236 comes under the notch 24I in the latching link 240, which drops to the position of Fig. 4.

Then the operator depresses the button 223, closing its master switch. (The choice of sequence between the button 22I, the button 223, and the introduction of the nozzle into the tank is obviously variable, just so the motor 253 is not started before the nozzle is in the tank. In other words, the nozzle must be introduced into the tank before both switch buttons HI and 223 are pressed.)

The foregoing will close the circuit from the secondary 25'! through the line 258, the switch 223, and the line 260 to the first contact 26m. The circuit will then pass through the lead 262a to the zero button I I2a, and thence out the line 266 through the solenoid switch coil 256 and the line 261 back to the secondary 251. This will immediately close the switch 255 and start the pump and drive motor 253 to working.

From the previous description of the mechanism, it will be remembered that the pump motor is geared to the counting mechanism and to the wiper arms Ill! and I16, which thereby will start wiping over their respective contacts. When the wiper arm I 01 leaves the contact I I 2c and makes with the contact lI2b, there will be no change in the circuit because the contact lIZb is hot by virtue of the fact that the circuit is completed from the line 260 through the contact 262a, the switch blade 264a, the contact 26H), etc. the wiper arm may continue to move until it reaches a dead contact I I2.

As originally selected, the five-gallon button was depressed. This breaks the blade 26% away from the contact 26Ie, so that the contact 26If is no longer in circuit. Hence, the wiper arm I01 will continue across the hot contact 2Iile and its correspondingly hot contact 2a to the dead contact H21. When it reaches this contact N2 the circuit will be broken because the secondary line 258 and its continuation 260 will be broken.

Thus,

Hence the coil 256 will be deenergized, and the switch 255 will drop open, stopping the motor. At this point, five gallons of gasoline will have been delivered.

When the pump nozzle is again hung on the lever 226, this will depress the rod 230, rocking the shaft 234 and the crank arm 235 with its lug 236. This lug, then engaged in the notch 24I, draws the link 240 and the rod 242 inwardly, operating the clearing mechanism the same way a manual depression of the button 222 does, releasing the buttons 22I and 223 to outward position. Toward the end of the rocking movement of the arm 235, the screw 231 will lift the link 240 off the lug 236, and the spring 243 will return the rod 242.

At the end of any operation by a pump of this kind, it is necessary to zeroize the mechanism. This is done by rotating the crank 51 one revolution, which rotates the shaft 56 and the cam wheel 15 in a clockwise direction, as it appears in Fig. 10.

The first part of the movement of the shaft 55 and the cam 15 causes the cam follower lug 13 on the bell crank 11 to be emitted from the notch 16 on the cam wheel 15. This causes a rocking of the bell crank 11 in a counterclockwise direc' tion, which, through the link 81, causes the shield 84 to rock clockwise a portion of a revolution, so

as to bring the fingers 85 down over the exposed figures on the indicating drums. Likewise, the link 88 causes the shield 82 to be rocked in a counterclockwise direction to do the same thing with the fingers 83 for the figures on the lower drums. the opposite end of the mechanism operate in a similar manner.

When the lower shield 82 is rocked counter clockwise, the normally unloaded coil spring M6 is put under tension. It draws down the end of the bell crank arm I4I (Figs. 17, 18) and thereby slides the slide I35 toward the frame 21. This yoke I35 has positive engagement with the gear 91, and the foregoing motion disengages this gear 91 from the tally gear 43. Likewise, the engagement of the gear 91 with the sleeve I20 causes this sleeve to be displaced axially, which, through the engagement of the disc I29, compresses the spring I26 away from the gear I and permits the other spring I25 to cause the gear I25 to follow the movement of the disc I29. The result of this action is to cause meshing of the gear I25 with the zeroizing gear 1I, so that the gear I25 is driven with the rotation of the zeroizing gear. It will be understood that the zeroizing gear II is driven when the crank 51 is turned. This arrangement causes a return movement of the shaft 95 the same distance that it was moved away from its zero position. The rotation of the shaft 95 reverses through the gears I02 and I63 to return the wiper arm I01 to its zero position. In this operation, any back over-travel of the wiper arms is prevented, as excess rotation of the gear wheel I25 under the action of the gear 1| is merely ggken up in slip action of the gear I25 on the shaft When a complete return revolution of the crank 51 has been made, the spring 19 will cause the bell crank lever 11 to rock to drop the lug 10 back. into the notch 16. This will return the shields and will unload the spring I46. Thereupon, the spring I45, which is lighter than the spring I46, will return the shifter fork I to its position shown in Fig. 17 wherein the gear 91 is again meshed with the gear 43 and the gear [25 is with- It will be understood that the shields at 12 drawn from mesh with the gear 1 I. The mecha will then be prepared for a new operation.

If, on the other hand, it is desired to dispense fifty cents worth of gasoline, the same button 22I may be depressed to break with the contact Mite and to make with the contact 211a.

The operation of the mechanism will be the same, except that the switch 224 is closed instead of the switch 223. This will complete a circuit from the secondary 251 through the line 255%, the switch 224, the line 210, the line 21I, the closed. switch 212, the line 213, the line 266, the solenoid switch coil 256, and the line 261 back to the secondary. This will immediately close the solenoid switch 255 and start the motor, at the same time causing the wiper arm I16 to start rotating clockwise.

The depression of the particular button. the circuit to be completed from the line through all of the closed contacts 26I to the particular depressed switch blade 2646, which is in contact, as indicated, with the contact 211e, This particular contact 211s is connected by its line 2186 with the contact I19e which is thereby hot.

The passage of the wiper arm I16, bringing its contact over the contacts I19 ahead of the contact l19e, will have no effect because all of the other contacts 211 are cold. However, when the wiper arm reaches the contact I196, which is hot, the circuit will be completed from the contact IlQe through the wiper arm to the line 289, and back through the circuit breaker coil 28I, and thence by the line 282 to the secondary. This will energize the circuit breaker coil and open the switch 212. When the switch 212 is opened, this deenergizes the solenoid switch coil 256 by breaking its circuit. Hence, the switch 255 will open and the motor will stop. Thereafter, when the attendant again hangs up the nozzle on the lever 226, the switchboard will be entirely cleared.

The calculators and wiper arms may be zeroized by operating the crank 51. This zeroizing operation zeroizes both wiper arms to the required extent at one time. Zeroizing the lower wiper arm I01 has already been described. In addition to that operation, the rocking of the shield 34 loads the spring 2 III, which draws the end of the lever 208 counterclockwise, as shown in Fig. 13. This lever 208, through the pin 201. displaces the shaft I9I toward the side frame 21 against the action of the spring I92. In this, the fork I moves the gear I68 away from the tally gear 53, so that the tally gear may be returned in the zeroizing operation of the drum. Also the fork I91 engages the gear I99 to move it into mesh with the gear 20I, so that the gear I99 is thereby caused to drive the gear 20I from the gear 69. It will be noticed that the gear I99 is thicker than the gear 69 so that it remains in mesh with this latter gear despite this displacement. The foregoing operation causes a reverse movement of the shaft I61 which is tran.-- mitted through the gears I10 and [H to the wiper arm I16, which is thereby returned to its starting or zero position in contact with the contact I19a. Over-travel of the shaft I61 under the action of the gears 69 and I99 is prevented by the slip friction engagement of the gear 29! withthe shaft I61. Hence, after the wiper arm is returned to its starting position, any further travel of the gear I 99 produces no effect. The mechanism is finally released after the complete revolution of the crank arm 51 in the manner aforesaid.

It will be seen that one of the switches 223 13 or 224 must be closed in order to have any operation at all. It will also be seen that, after a particular button 22i is depressed, the dis= pensing will be in either gallons or money, in accordance with which of the two switches 223 and 224 is closed. Both cannot be closed at one time because depressing one clears the other in the known manner.

The two wiper arms are geared differently so as to take care of the difference in dispensing units. The wiper arm I16 is geared to run at least as fast as, and preferably faster than, the arm l! to prevent the existence of parasitic Circuits.

For example, if the wiper arm it? reached the contact H2), this contact would be hot because of the circuit through the switch 224 and around the closed contacts 221. If the wiper arm I01 reaches this contact I I2; before or as soon as the wiper arm I76 reaches the hot contact [79s, stopping the motor, the motor would not stop because thereafter all of the successive contacts H2 are hot.

If the customer, in the middle of an operation, decides to have a difierent quantity of material that is more than the amount dispensed up to that point, this may be easily provided by de pressing an appropriate switch button 22 i. For example, if, after the dispensing of three gallons on an initial choice of five gallons, the customer desires eight gallons, it is necessary only to depress the appropriate contact ZZI. Furthermore, if the customer decides upon having two dollars worth of gasoline, after having initially called for five gallons, this may be done, provided only a lesser amount has already been dispensed, by depressing the appropriate twodollar button 225 and depressing then the money master switch button 224. The latter automatically clears the switch 223 and the mechanism will proceed to dispense the two dollars worth of gasoline.

It will be seen that this mechanism provides a dispensing control that has particular value in connection with the sale of gasoline. It will be understood that its principles may be applied to the dispensing of different material than gasoline, and also that the particular units chosen are subject to any variation.

What is claimed is:

i. In a control for liquid dispensers having a power means operating the same, the combine. tion of a pair or members moved in accordance with movement of the power means but at different rates relative thereto, each member having associated therewith a plurality of connection operating means disposed successively in the path of the movable members, selector switch m ans separately movable and having a plural ity of connections with the several connection operating means of the movable members, whereby upon selecting by the selector means particular connection operating means of both movable members may be made effective, means adapted .for connection with the power means to start the same and to continue its operation, the movable members being adapted to stop the same when the particular connection operating means selected as aforesaid'by the selector means is engaged by the movable member, and switch means to control which movable member shall be operable to effect the stopping.

2. In a control for liquid dispensers having a power means operating the same, the combination of stopping mechanism including a plurality of rotatable contact members adapted to be rotated coordinately with the power means, but at different units of movement per unit of movement of the power means and multiple switch members, one for each contact member and each having a plurality of contacts arranged successively in the path of its rotatable contact member, selector switch means connected to both multiple switch members and operable for ren dering particular contacts thereon effective, means adapted to start the power means, connections between the selector switch means and the stopping means adapted to effect stopping of the power means when the particular selected contacts of one of the multiple switch members is reached by its rotatable contact member, and means operable to an operating position for rendering one of said stopping means efiective.

3. In a control for liquid dispensers having a power means operating the same, the combination of stopping mechanism including a plurality of rotatable contact members adapted to be rotated coordinately with the power means, but at different units of movement per unit of movement of the power means, and multiple switch members, one for each contact member and each having a plurality of contacts arranged successively in the path of its rotatable contact member, selector switch means connected to both multiple switch members and operable for renclering particular contacts thereon effective, means adapted to start the power means, connections between the selector switch means and the stopping means adapted to effect stopping of the power means when the particular selected contacts of one of the multiple switch members reached by its rotatable contact member, means operable to an operating position for rendering one of said stopping means effective, the selector means comprising a manual switch mechanism with a plurality of contacts severally connected with the contacts on the multiple switch menibers, and manual means movable for operating particular contacts for making and breaking any chosen one of said connections, and thereby mal zing and breaking particular circuits through the rotatable contact members.

4. In a control for liquid dispensers having a power means operating the same, the combination of stopping mechanism including a plurality of rotatable contact members adapted to be rotated coordinately with the power means, but at differ" ent units of movement per unit of movement of the power means, and multiple switch members. one for each contact member and each. having a plurality of contacts arranged successively in the path of its rotatable contact member, selector switch means connected to both multiple switch members and operable for rendering particular contacts thereon effective, means adapted to start the power means, connections between the se lector switch means and the stopping means adapted to efiect stop-ping of the powermeans when the particular selected contacts of one of the multiple switch members is reached by its rotatable contact member, and means operable to an operating position for rendering one of stopping means effective, the selector means com prising a manual switch mechanism with a plurality of contacts severally connected with the contacts on the multiple switch members, manual means movable for operating particular contacts for making and breaking any chosen one of said connections and thereby making and breaking particular circuits through the rotatable contact members, and a nozzle connection from the dispenser, with holding means for the nozzle; and means operated by engagement of the nozzle thereon to return the engaged switch from operated position.

5. In a control for liquid dispensers having a power means operating the same, the combination of stopping mechanism including a plurality of rotatable contact members adapted to be rotated coordinately with the power means, but at different units of movement per unit of movement of the power means, and multiple switch. members, one for each contact member and each having a plurality of contacts arranged successively in the path of its rotatable contact member, selector switch means connected to both multiple switch members and operable for rendering particular contacts thereon eifective, means adapted to start the power means, connections between the selector switch means and the stopping means adapted to effect stopping of the power means when the particular selected contacts of one of the multiple switch members is reached by its rotatable contact member, means operable to an operating position for rendering one of said stopping means eifective, the selector means comprising a manual svitch mechanism with a plurality of contacts severally connected with the contacts on the multiple switch members, manual means movable for operating particular contacts for making and breaking any chosen one of said connections and thereby making and breaking particular circuits through the rotatable contact members, and nozzle connection from the dispenser, with hold-- ing means for the nozzle, means operated by en gagement of the nozzle thereon to return gaged switch from operated position, and connections in said last named means also to return the means for rendering one stopping means effective, from operating position.

6. In a control for liquid dispensers having power means operating the same, the combinaticn of stopping mechanism including a plurality of rotatable contact members adapted to be rotated coordinately with the power means, but at different units of movement per unit of movemer' of the power means, and multiple switch n1embers, one for each contact member and each having a plurality of contacts arranged successively in the path of its rotatable contact member, sc-- lector switch means connected to both multiple switch members and operable for rendering particular contacts thereon effective, means adapted to start the power means, connections between the selector switch means and the stopping means adapted to effect stopping of the power means when the particular selected contacts of one of the multiple switch members is reached by its rotatable contact member, and means operable to an operating position for rendering one cf said stopping means eifective, the selector means including a plurality of contacts severally connected with the contacts on one multiple switch mem ber, means to complete a circuit through selected ones of said contacts in series and to break the circuit thereafter, whereby at least one of said rotatable contact members may have an operating circuit for the power means completed through it until the rotatable contact member arrives at a selected contact and thereafter having a circuit broken at the selector means.

7. In a control for liquid dispensers having a power means operating the same, the combination of stopping mechanism including a plurality of rotatable contact members adapted to be rotated coordinately with the power means, but at different units of movement per unit of movement of the power means, and multiple switch members, one for each contact member and each having a plurality of contacts arranged successively in the path of its rotatable contact mem ber, selector switch means connected to both multiple switch members and operable for rendering particular contacts thereon effective, means adapted to start the power means, connections between the selector switch means and the stopping means adapted to effect stopping of the power means when the particular selected contacts of one of the multiple switch members is reached by its rotatable contact member, means operable to an operating position for rendering one of said stopping means effective, the selector means including a plurality of contacts severally connected with the contacts on one multiple switch member, means to complete a circuit through selected ones of said contacts in series and to break the circuit thereafter, whereby at least one of said rotatable contact members may have an operating circuit for the power means completed through it until the rotatable contact member arrives at a selected contact and thereafter having a circuit broken at the selector means, a second set of contacts in the selector means severally connected with the other multiple switch member contacts, the circuit making and breaking means being adapted to close with a selected one of said second set of contacts, whereby a circuit may be made therethrough when. the rotatable element thereof closes with said made contact, and means operated through said made contact to stop the power means.

8. In a control for liquid dispensers having a power means operating the same, a pair of wiper arms operated coordinately with the power means but at different rates of movement relative thereto, a pair of contact discs, one for each arm, and each having a plurality of contacts successively arranged in the path of its arm, the con tacts on the two discs being spaced so that successive contacts on one disc are engaged by its arm before successive contacts on the other disc are engaged by the arm for such other disc, selector means having a plurality of contacts successively arranged for connection with the successive contacts of the discs, means for oper ating particular contacts of the selector means to render particular contacts of the discs eifective, connections from each wiper arm and disc assembly for controlling operation of the power means, and switch means for closing a selected one of said connections for changing the operation of the power means when the wiper arm of that disc reaches the contact corresponding to the one selected by the selector means.

9. In a control for liquid dispensers having a power means operating the same, a pair of wiper arms operated coordinately with the power means but at different rates of movement relative thereto, a pair of contact discs, one for each arm, and each having a plurality of contacts successively arranged in the path of its arm, the contacts on the two discs being spaced so that successive contacts on one disc are engaged by its arm before successive contacts on the other disc are engaged by the arm for such other disc, selector means having a plurality of contacts successively arranged for connection with the successivc contacts of the discs, means for operating particular contacts of the selector means to render particular contacts of the discs effective, connections from each wiper arm and disc assembly for controlling operation of the power means,

said connections for changing the operation of the power means when the wiper" arm of that disc reaches the contact corresponding to the one selected by' the selector means, the operating means for the selector means comprising a set ofpush buttons.

10. A control for a liquid dispenser having a power means, including arotata'ble wiper'element connected for rotation with the power means, a disc having. a plurality of contacts successively arranged in' the path of the wiper element, selector means for rendering a chosen one of said contacts effective, means to start the power means, means including connections between the power means, the selector means and the disc contacts for stopping operation of the power means when the chosencontact is reached by the wiper element, and means to return the wiper element to starting position, including return rotating means, means to render the power means ineffective, means to connect the wiper element to the return means, said connecting means permitting overtravel of the return means after the wiper element has reached its starting position.

11. In a liquid dispenser, a power means, indicating means connected with the power means and movable to indicate the amount as it is being dispensed, control means set in operation at the beginning of the dispensing operation for stopping the power means after a predetermined amount is dispensed, including an element separate from the indicating means moved with the power means, and means under control of said element for causing the power means to stop; means for zeroizing the indicating means and the element in the same operation, the zeroizing means including a moving member, connections between the member and the indicating means, selectively engaging means between the moving member and the element, and means operated by movement of the moving member to operate the selectively engaging means.

12. In a liquid dispenser, a power means, indicating means connected with the power means and movable to indicate the amount as it is being dispensed, control means set in operation at the beginning of the dispensing operation for stopping the power means after a predetermined amount is dispensed, including an element separate from the indicating means moved with the power means, and means under control of said element for causing the power means to stop; means for zeroizing the indicating means and the element in the same operation, the zeroizing means including a moving member, connections between the member and the indicating means, selectively engaging means between the moving member and the element, and means operated by movement of the moving member to operate the selectively engaging means, the selectively engaging means including also means to disconnect the element from movement with the power means.

13. In a mechanism of the kind described, a power means and mechanism to produce a predetermined movement of the power means and then to stop the same, a single selection mechanism having a plurality of switch means adapted to be calibrated in two diiferent units, a pair of operating switching devices each having movable means and a plurality of successive contacts closed by said movable means, each movable means being connected for operation by the power means, one movable means being moved from one contact, to a succeeding contact in one increment of movement of the power means, the other movable means being moved between two successive contacts, in a different increment of movement of. the power means, means to stop thepower means, circuit means, one between the switch means of the selection mechanism and each of. said succesive contacts, each circuit means including the stopping means, and means to selectively energize each circuit arrangement.

14.. In a mechanism of the kind described, selector means including a plurality of selector switch means operable from initial to second positions, said switch means having first contacts closed together in series when all of the switch means are in initial positions, and having second contacts closed. with corresponding first contacts when a switc'h'means is shifted to second position,'a pair of operating switching devices each including a movable means and a plurality of contacts successively closable thereby, the selector switch means having its first contacts connected in order to one set of operating. device contacts, and its second contacts connected to the other set of operating device contacts, a power line connected to opposite ends of the selector switch means in their initial positions, an operated'device, a second power line connected to the operated device, a circuit breaker having a switch and energizing means, a connection from the operated device to one movable means, a connection from the second power line through the circuit breaker energizing means and the other movable means, a connection from one end of the selector switch means through the circuit breaker switch and the actuated device, and selectively operatable switch means to open and close the lines leading to opposite ends of the selector switch means.

15. In a control for liquid dispensers having a power means operating the same, the combina tion of a pair of members moved in accordance with movement of the power means but at different rates relative thereto, each member having associated therewith a plurality of connection operating means disposed successively in the path of the movable members, selector switch means separately movable and having a plurality of connections with the several connection operating means of the movable members, whereby upon selecting by the selector means particular connection operating means of both movable members may be made eiTective, means adapted for connection with the power means to start the same and to continue its operation, the movable members being adapted to stop the same when the particular connection operating means selected as aforesaid by the selector means is engaged by the movable member, switch means to control which movable member shall be operable to effect the stopping, indicating means connected with the power means and movable to indicate the amount as it is being dispensed, means for returning the indicating means and said movable members to their starting positions in the same operation including a moving element, connections between said element and the indicating means, selectively engaging means between said element and said movablemembers, and means operated by movement of said element to operate the selectively engaging means, the selectively engaging means including also means to disconnect the movable member from movement with the power means.

16. In a control for liquid dispensers having a power means operating the same, a pair of wiper arms operated coordinately with the power means but at different rates of movement relative thereto, a pair of contact discs, one for each arm, and each having a plurality of contacts successively arranged in the path of its arm, the contacts on the two discs being spaced so that successive contacts on one disc are engaged by its arm before successive contacts on the other disc are engaged by the arm for such other disc, selector means having a plurality of contacts successively arranged for connection with the successive contacts of the discs, means for operating particular contacts of the selector means to render particular contacts of the discs efiective, connections from each wiper arm and disc assembly for controlling operation of the power means, switch means for closing a selected one of said connections for changing the operation of the power means when the wiper arm of that disc reaches the contact corresponding to the one selected by the selector means, indicating means connected with the power means and movable to indicate the amount as it is being dispensed,

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,607,899 Long Nov. 23, 1926 2,116,785 Griffith May 10, 1938 2,227,830 Hazard Jan. 7, 1941 2,305,221 Managan Dec. 15, 1942 2,358,712 Hinds Sept. 19, 1944 

